Academic Background ππ
Dr. Ming Kong completed his Bachelor’s degree in Environmental Engineering at Chongqing University from September 2008 to June 2012. Demonstrating a profound interest in the field, he continued his academic pursuit at the same university, earning his PhD in Environmental Science and Engineering from September 2012 to June 2018. His doctoral research laid a solid foundation for his future contributions to the field of environmental catalysis.
Professional Experience
Dr. Kong’s professional career is marked by significant roles at Chongqing University of Science and Technology. From March 2021 to December 2022, he served as a research assistant, focusing on the development of innovative environmental technologies. In January 2023, he was appointed as an associate professor, a position he currently holds, where he continues to mentor students and lead cutting-edge research projects.
Research Focus
Dr. Ming Kong specializes in environmental catalysis with a keen focus on post-combustion CO2 capture and pollutant removal technologies. His research primarily explores the development and enhancement of carbon-based, zeolites, and metal-organic frameworks (MOFs) for efficient CO2 adsorption. Additionally, he investigates the regeneration and optimization of catalysts for selective catalytic reduction (SCR) processes, particularly those deactivated by heavy metals like PbO and PbCl2. His work aims to advance sustainable industrial practices by improving the efficiency of catalysts used in air and flue gas treatment, contributing to cleaner, greener technologies. πΏβοΈ
Publication Top Notes
- π “A review on development of post-combustion CO2 capture technologies: Performance of carbon-based, zeolites and MOFs adsorbents”
π¬ Kong, M., Song, L., Liao, H., Deng, X., Feng, W., Fuel, 2024, Vol. 371, Art. 132103, π 0 citations.
- π “Regeneration of PbO-deactivated Mn-Ce/Ti-bearing blast furnace slag SCR catalyst: Washing and Mn-Ce reloading”
π¬ Kong, M., Zhang, S., Wang, Y., Song, L., Zhang, H., Fuel, 2024, Vol. 357, Art. 129992, π 0 citations.
- π “Promotion of Fe doping on MnOx-CeO2/Ti-bearing blast furnace slag low-temperature SCR catalyst with excellent Pb resistance”
π¬ Zhang, H., Kong, M., Liu, J., Song, L., Wang, Y., Chemical Engineering Journal, 2024, Vol. 480, Art. 148155, π 2 citations.
- π “Efficient adsorption removal of NO2 by covalent triazine frameworks with fine-tuned binding sites”
π¬ Tian, Y., Kong, M., Tao, Z., Li, L., Shang, J., Journal of Hazardous Materials, 2023, Vol. 441, Art. 129962, π 13 citations.
- π “Acid-free extraction of manganese from pyrolusite tailings by in situ redox interaction with waste copperas”
π¬ Yang, C., Duan, X., Zhang, X., Kong, M., Liu, W., Process Safety and Environmental Protection, 2023, Vol. 169, pp. 149β158, π 4 citations.
- π “Efficient MnOx-CeO2/Ti-bearing blast furnace slag catalyst for NH3-SCR of NO at low temperature: Study of support treating and Mn/Ce ratio”
π¬ Kong, M., Zhang, H., Wang, Y., Liu, W., Wu, H., Journal of Environmental Chemical Engineering, 2022, Vol. 10(5), Art. 108238, π 22 citations.
- π “Deactivation mechanisms of MnOx-CeO2/Ti-bearing blast furnace slag low-temperature SCR catalyst by PbO and PbCl2”
π¬ Kong, M., Zhang, H., Wang, Y., Liu, W., Wu, H., Molecular Catalysis, 2022, Vol. 521, Art. 112209, π 11 citations.
- π “Insight into N2O Formation Over Different Crystal Phases of MnO2 During Low-Temperature NH3βSCR of NO”
π¬ Yang, J., Ren, S., Su, B., Kong, M., Liu, Q., Catalysis Letters, 2021, Vol. 151(10), pp. 2964β2971, π 36 citations.
- π “Influence of phosphorus on the NH3-SCR performance of CeO2-TiO2 catalyst for NOx removal from co-incineration flue gas of domestic waste and municipal sludge”
π¬ Cao, J., Rohani, S., Liu, W., Kong, M., Liu, Q., Yao, X., Journal of Colloid and Interface Science, 2022, Vol. 610, pp. 463β473, π 39 citations.
- π “Erratum to βInfluence of phosphorus on the NH3-SCR performance of CeO2-TiO2 catalyst for NOx removal from co-incineration flue gas of domestic waste and municipal sludgeβ”
π¬ Cao, J., Rohani, S., Liu, W., Kong, M., Liu, Q., Yao, X., Journal of Colloid and Interface Science, 2022, Vol. 613, pp. 866, π 0 citations.